Provided herein are methods for the treatment and prevention of vascular lesions arising from RASA1 and/or EPHB4 mutations and associated with capillary malformation-arteriovenous malformation (CM-AVM).

The present invention provides a composition for improving vascular endothelial function, comprising: an ingredient selected from a monounsaturated fatty acid having 20 carbon atoms or more, a salt thereof, and an ester thereof as an active ingredient, in which the ratio of the monounsaturated fatty acid having 20 carbon atoms or more to the total fatty acids in the composition is 10 wt % or greater. The present invention also provides a composition for improving sleep, comprising an ingredient selected from a monounsaturated fatty acid having 20 carbon atoms or more, a salt thereof, and an ester thereof as an active ingredient.

The present invention provides a composition for improving vascular endothelial function, comprising: an ingredient selected from a monounsaturated fatty acid having 20 carbon atoms or more, a salt thereof, and an ester thereof as an active ingredient, in which the ratio of the monounsaturated fatty acid having 20 carbon atoms or more to the total fatty acids in the composition is 10 wt % or greater. The present invention also provides a composition for improving sleep, comprising an ingredient selected from a monounsaturated fatty acid having 20 carbon atoms or more, a salt thereof, and an ester thereof as an active ingredient.

Provided herein are methods and compositions for treating and preventing vascular malformations including lymphatic, venous, capillary, arteriovenous, and combinations thereof. Methods of treatment and prevention include the administration of proteasome inhibitors, omipalisib, disulfiram, and agents which target genes in the PI3K/AKT/mTOR or RAS/RAF/MAPK pathways, including but not limited to Pik3ca, Pik3r3, Tsc2, Rasa1, Map2k2, and Glmn.

Provided herein are methods and compositions for treating and preventing vascular malformations including lymphatic, venous, capillary, arteriovenous, and combinations thereof. Methods of treatment and prevention include the administration of proteasome inhibitors, omipalisib, disulfiram, and agents which target genes in the PI3K/AKT/mTOR or RAS/RAF/MAPK pathways, including but not limited to Pik3ca, Pik3r3, Tsc2, Rasa1, Map2k2, and Glmn.

Provided is a low-molecular-weight holothurian glycosarninoglycan, with the constituent units thereof being a glucuronic acid group, an N-acetaminogalactose group and a fucose group, and a sulfate ester group or acetyl ester group thereof. Glucuronic acid and N-acetaminogalactose are interconnected via β(1-3) and β(1-4) glucosidic bonds to form a backbone of a disaccharide repeating structural unit, and a fucose group is connected to the backbone as a side chain. On a molar ratio basis, the ratio of the glucuronic acid group:the N-acetaminogalactose group:the fucose group is 1:(0.8-1.2):(0.6-1.2). In the structure of the low-molecular-weight holothurian glycosaminoglycan, 10-30% of glucuronic acid groups are modified, on the 2-position, with a sulfate ester group, and the rest are hydroxyl groups; and a proportion of 10-30% of fucose groups is modified, on the 2-position, with an acetyl ester group, and the rest are hydroxyl or sulfate ester groups. The low-molecular-weight holothurian glycosarninoglycan of the present invention has anti-inflammation, anti-vasculopathy, anti-tumor or anti-tumor-metastasis functions, and the effect of improving learning and memory abilities, and can be used for preparing a related drug or health-care product.

Provided is a low-molecular-weight holothurian glycosarninoglycan, with the constituent units thereof being a glucuronic acid group, an N-acetaminogalactose group and a fucose group, and a sulfate ester group or acetyl ester group thereof. Glucuronic acid and N-acetaminogalactose are interconnected via β(1-3) and β(1-4) glucosidic bonds to form a backbone of a disaccharide repeating structural unit, and a fucose group is connected to the backbone as a side chain. On a molar ratio basis, the ratio of the glucuronic acid group:the N-acetaminogalactose group:the fucose group is 1:(0.8-1.2):(0.6-1.2). In the structure of the low-molecular-weight holothurian glycosaminoglycan, 10-30% of glucuronic acid groups are modified, on the 2-position, with a sulfate ester group, and the rest are hydroxyl groups; and a proportion of 10-30% of fucose groups is modified, on the 2-position, with an acetyl ester group, and the rest are hydroxyl or sulfate ester groups. The low-molecular-weight holothurian glycosarninoglycan of the present invention has anti-inflammation, anti-vasculopathy, anti-tumor or anti-tumor-metastasis functions, and the effect of improving learning and memory abilities, and can be used for preparing a related drug or health-care product.

Provided are methods for treating or preventing vasculopathy comprising administering to a subject in need thereof, ac composition comprising a mesenchymal stem cell (MSC), or a part of a culture medium that has been in contact with the MSC and comprises one or more components of the MSC, or an exosome derived from the MSC. Pharmaceutical compositions suitable for such treatment is also provided.

The present invention provides an aptamer that binds to chymase, and contains a common sequence represented by UAACR.sub.1N.sub.1R.sub.2GGGG wherein R.sub.1 and R.sub.2 are each any one base, and N.sub.1 shows 3 to 30 bases (uracil is optionally thymine).

The present invention relates to novel biologically active compounds, in particular dicarboxylic acid bisamide derivatives of general formula I:

##STR00001##

or pharmaceutically acceptable salts thereof, which are able to form complexes with or chelate metal ions. The invention also relates to the use of said compounds as an agent for the prevention and/or treatment of cardiovascular, viral, cancer, neurodegenerative and inflammatory diseases, diabetes, age-related diseases, diseases caused by microbial toxins, alcoholism and alcoholic cirrhosis, anaemia, porphyria cutanea tarda, and transition metal salt poisoning. The present invention also relates to novel methods for preparing dicarboxylic acid bisamide derivatives of general formula I.